Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Ca2+ ion exerts a profound influence on cellular processes and an understanding of control mechanisms of intracellular Ca2 homeostasis while complex is mandatory in this discussion. The identification and recognition of prolonged sustained increase in [Ca2+]i as a manifestation of neurotoxin-induced destabilization of [Ca2+]i homeostasis will be related to a variety of neurotoxicant-induced cell injuries. The sites of toxicant interaction with ATP-regulated Ca2+ pumps located in the neuronal/glial membrane and/or calciosomes; availability of Ca2+ proteins; disruption in mitochondrial mechanisms for Ca2+ storage; triggers of voltage-dependent Ca2+ channels and modulation of the Na+/Ca2+ exchanger will be identified and related to presumptive toxin action. Failure of one or more of these systems will result in continuous elevation of ionized [Ca2+]i--a reflection of Ca2+ destabilization. The targets resulting from Ca2+ destabilization will be identified, to include phospholipase C activation, PLA2 activation, protein kinase C (PKC) translocation, and activation of Ca(2+)-dependent calpain 1. The use of specific inhibitors of neurotoxicity, e.g., natural sphingolipids, sphingosine, down regulation of PKC, inhibitors and activators of adenylate cyclase, and antiprotease agents will allow for investigation of the role of these final common pathways in the evolution of neurotoxicity.
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PMID:Ca(2+)-dependent processes as mediators of neurotoxicity. 150 13

The Na+/Ca2+ exchanger (NCE) contributes to Ca2+ reabsorption by connecting tubules of the nephron. A line of renal epithelial cells from monkey kidney (LLC-MK2) was used to investigate the regulation of NCE expression. After the activation of protein kinase C (PKC) by phorbol myristate acetate (PMA), NCE activity decreased exponentially by 75% in 48 h (half time approximately 19 h). PMA decreased NCE mRNA by 85% in 24 h. The decrease in NCE transcript preceded the downregulation of NCE activity. NCE protein was quantified with a monoclonal antibody to cardiac NCE. PMA decreased the binding of 3H-labeled antibody to cell sonicates by 40% in 24 h. Immunoblots show that PMA produced a marked and extended increase in membrane-associated PKC-alpha, although PMA depleted total PKC-alpha by 65% in 24 h. In vivo 32P labeling of myristolated alanine-rich C kinase substrate, a specific PKC substrate, confirmed that PMA produced a rapid and extended activation of PKC. 4 alpha-PMA, a stereoisomer of PMA that neither binds nor activates PKC, had no effect on NCE activity or transcript. These findings indicate that activation of PKC with phorbol esters downregulates NCE mRNA, protein, and activity in renal epithelial cells.
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PMID:Phorbol esters downregulate expression of the sodium/calcium exchanger in renal epithelial cells. 765 27

Although the Na+/Ca2+ exchanger is one of the major Ca2+ extrusion systems in excitable tissues, little is known about its regulation via protein phosphorylation. We now present evidence that the Na+/Ca2+ exchanger is phosphorylated in quiescent and growth factor-stimulated cultured aortic smooth muscle cells. The Na+/Ca2+ exchanger was isolated from 32P-labeled cells by immunoprecipitation with a specific polyclonal antibody. Phosphorylation of the exchanger was increased by up to 1.7-fold in response to platelet-derived growth factor-BB (PDGF-BB), alpha-thrombin, or phorbol 12-myristate 13-acetate (PMA). However, angiotensin II did not enhance the phosphorylation significantly. The extent of phosphorylation appeared to correlate with the growth factor-induced increase in cell 1,2-diacylglycerol. At least four phosphopeptides (P1 to P4) were detected by tryptic phosphopeptide map analysis of the phosphorylated exchanger, suggesting that phosphorylation occurred at multiple sites. PDGF-BB and PMA increased phosphorylation of the same phosphopeptides (in particular P1). Phosphorylated amino acids were exclusively serine residues in both quiescent and stimulated cells. We found that growth factors enhanced Na+/Ca2+ exchange activity and that there was a good correlation between the growth factor-induced stimulations of phosphorylation and exchange activity. PDGF-BB-induced activation of the exchanger was abolished by prior long treatment of cells with PMA. These results suggest that the Na+/Ca2+ exchanger is activated by protein kinase C-dependent phosphorylation in response to growth factors in vascular smooth muscle cells.
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PMID:Growth factor-induced phosphorylation and activation of aortic smooth muscle Na+/Ca2+ exchanger. 772 10

The cardiac Na+/Ca2+ exchanger (NCX1) plays a major role in the extrusion of Ca2+ from cardiomyocytes. We studied the role of protein phosphorylation in the regulation of cardiac NCX1 using CCL39 stably overexpressing the canine cardiac NCX1 and rat neonatal cardiomyocytes. In both cell types, the NCX1 protein immunoprecipitated with a chicken anti-NCX1 antibody exhibited a significant basal phosphorylation that was further enhanced by treatment with endothelin-1, acidic fibroblast growth factor, phorbol 12-myristate 13-acetate, or okadaic acid. In contrast, calphostin C, K252a, or EGTA inhibited the phosphorylation. The phosphorylation occurred on two major tryptic phosphopeptides (P1 and P2) exclusively on serine residues. Evidence is presented suggesting that P2 was derived from an N-terminal half (amino acids 240-475) of the central cytoplasmic domain of NCX1 and was phosphorylated directly by protein kinase C (PKC). The agents that increased NCX1 phosphorylation significantly enhanced both the forward and reverse modes of Na+/Ca2+ exchange. This exchange activation exhibited a very good correlation with the NCX1 phosphorylation. In NCX1-transfected cells, PKC down-regulation following prolonged exposure to phorbol 12-myristate 13-acetate abolished the acidic fibroblast growth factor-induced activation of exchange activity. On the other hand, cell ATP depletion reduced the exchange activity and abolished the effects of the above agents on exchange activity. These results indicate that the cardiac NCX1 is up-regulated by PKC-catalyzed phosphorylation. The cardiac NCX1 thus could play an important role in the previously reported negative inotropic actions of phorbol esters and other PKC-activating agents.
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PMID:Phosphorylation-dependent regulation of cardiac Na+/Ca2+ exchanger via protein kinase C. 866 55

The Na+/Ca2+ exchanger plays an important role in the maintenance of calcium homeostasis in the heart. Therefore, factors which regulate the exchanger have a significant impact on cardiac function. Previously, we showed that the non-hydrolysable GTP analog, 5'guanylyl imidodiphosphate [Gpp(NH)p], stimulates Na+/Ca2+ exchange activity, implying the involvement of a G protein in exchanger regulation. In this study, we examined the effect of G protein agonists on Na+/Ca2+ exchanger activity. Isoproterenol, a Gs agonist, had no effect on exchanger activity. Likewise, the Gi agonist, carbachol, did not influence Na+/Ca2+ exchanger activity. Since these G proteins couple to the adenylate cyclase system, it would appear that cAMP-linked events do not regulate the Na+/Ca2+ exchanger. We next examined the influence of Gq-linked agonists on exchanger activity. Phenylephrine, an alpha 1-adrenergic agonist, increased Na+/Ca2+ exchanger activity up to 111% with an EC50 of 21 microM. Moreover, the Na+/Ca2+ exchanger activity was enhanced by angiotensin II and endothelin 1, which caused maximal stimulation of exchanger activity up to 125% and 211%, respectively. The selective protein kinase C inhibitor chelerythrine significantly attenuated the ability of phenylephrine and angiotensin II to stimulate the Na+/Ca2+ exchanger. In addition, the protein kinase C activator, phorbol 12-myristate 13-acetate, stimulated exchanger activity by 32%, raising the possibility that all three Gq agonists mediate their actions in part through the promotion of phospholipase C activity and the subsequent activation of protein kinase C. The contribution of Na+/Ca2+ exchange to the actions of phenylephrine, angiotensin II, and endothelin 1 is discussed.
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PMID:Stimulation of the Na+/Ca2+ exchanger by phenylephrine, angiotensin II and endothelin 1. 874 10

The P2U purinergic agonist ATP (0.3 mM) elicited an increase in [Ca2+]i due to Ca2+ release from intracellular stores in transfected Chinese hamster ovary cells that express the bovine cardiac Na+/Ca2+ exchanger (CK1.4 cells). The following observations indicate that ATP-evoked Ca2+ release was accompanied by a Ca(2+)-dependent regulatory activation of Na+/Ca2+ exchange activity: Addition of extracellular Ca2+ (0.7 mM) 0-1 min after ATP evoked a dramatic rise in [Ca2+]i in Na(+)-free media (Li+ substitution) compared to Na(+)-containing media; no differences between Na(+)- and Li(+)-based media were observed with vector-transfected cells. In the presence of physiological concentrations of extracellular Na+ and Ca2+, the ATP-evoked rise in [Ca2+]i declined more rapidly in CK1.4 cells compared to control cells, but then attained a long-lived plateau of elevated [Ca2+]i which eventually came to exceed the declining [Ca2+]i values in control cells. ATP elicited a transient acceleration of exchange-mediated Ba2+ influx, consistent with regulatory activation of the Na+/Ca2+ exchanger. The acceleration of Ba2+ influx was not observed in vector-transfected control cells, or in CK1.4 cells in the absence of intracellular Na+ or when the Ca2+ content of the intracellular stores had been reduced by prior treatment with ionomycin. The protein kinase C activator phorbol 12-myristate 13-acetate attenuated the exchange-mediated rise in [Ca2+]i under Na(+)-free conditions, but did not inhibit the ATP-evoked stimulation of Ba2+ influx. The effects of PMA are therefore not due to inhibition of exchange activity, but probably reflect the influence of protein kinase C on other Ca2+ homeostatic mechanisms. We conclude that exchange activity is accelerated during ATP-evoked Ca2+ release from intracellular stores through regulatory activation by increased [Ca2+]i. In the absence of extracellular Ca2+, the stimulation of exchange activity is short-lived and follows the time course of the [Ca2+]i transient; in the presence of extracellular Ca2+, we suggest that the exchanger remains activated for a longer period of time, thereby stabilizing and prolonging the plateau phase of store-dependent Ca2+ entry.
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PMID:Acceleration of sodium-calcium exchange activity during ATP-induced calcium release in transfected Chinese hamster ovary cells. 899 65

We have examined the possible regulatory effect of tyrosine kinase activity on Ca2+ transport observed in the cultured rat cortical neurons. Na+/Ca2+ exchange was studied using cells cultured for various time periods. A nearly two fold increase in Ca2+ uptake was seen when comparing 3 day and 9 day cultures. Western blot analysis also showed a two fold increase in Na+/Ca2+ exchanger (NCX1) protein levels as cells matured in culture. To study the effect of genistein (a specific tyrosine kinase inhibitor) cells were incubated with 100 microM genistein (in 1% DMSO) for 1 hour before the assay of Na+/Ca2+ exchange activity. There was a significant decrease of Ca2+ uptake in genistein treated neurons (control: 4.596+/-0.205 nmol/mg protein/15 min, n=12; genistein: 1.420+/-0.131 nmol/mg protein/15 min, n=12, mean+/-S.E. P<0.001). Daidzein, an inactive analog of genistein and phorbol myristate acetate (PMA), a PKC activator were without effect. The results suggest that as cells mature in culture, Na+/Ca2+ exchange capacity increases, as a result of greater protein expression. Exposure to genistein inhibited Ca2+ uptake suggesting that the exchanger may be modulated by tyrosine phosphorylation.
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PMID:Genistein inhibits Na+/Ca2+ exchange activity in primary rat cortical neuron culture. 914 1

cDNAs for the Na+/Ca2+ exchanger from Drosophila melanogaster (Dmel/Nck) have been cloned by homology screening using the human heart Na+/Ca2+ exchanger cDNA. The overall deduced protein structure for Dmel/Nck is similar to that of mammalian Na+/Ca2+ exchanger genes NCX1 and NCX2, having six hydrophobic regions in the amino terminus separated from six at the carboxy-terminal end by a large intracellular loop. Sequence comparison of the Drosophila exchanger cDNAs with NCX1 and NCX2 Na+/Ca2+ exchangers are approximately 46% identical at the deduced amino acid level. Consensus phosphorylation sites for both protein kinase C and protein kinase A are present on the intracellular loop region of the Dmel/Nck. Alternative splicing for the Dmel/Nck gene is suggested in the same intracellular loop region as demonstrated for NCX1. Functionally, the Drosophila Na+/ Ca2+ exchanger expressed in oocytes differs from expressed mammalian NCX1 with regard to Ca2+ transport in Ca2+/ Ca2+ exchange and the effect of monovalent-dependent Ca2+/ Ca2+ exchange. The Dmel/Nck gene maps to chromosome 3 (93A-B) using in situ hybridization to polytene chromosomes, the same position as the Na(+)-K(+)-ATPase, a related transporter. We conclude that, although extracellular Na+ concentration-dependent Ca2+ transport is subserved by both human and Drosophila Na+/Ca2+ exchangers, there are clear and important differences in the transporters, which should be useful in deducing how the Na+/Ca2+ exchanger protein function depends on its structure.
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PMID:Na+/Ca2+ exchanger in Drosophila: cloning, expression, and transport differences. 925 64

Although it is well known that Angiotensin II (Ang II) has a direct positive inotropic effect in several species, the mechanisms of this action are still poorly understood. The aim of this review is to analyze the possible subcellular mechanisms underlying Ang II-induced positive inotropic action. The binding of Ang II to its receptor triggers a complex signal transduction cascade that stimulates the intracellular formation of two second messengers, inositol 1,4,5-triphosphate (IP3), and 1,2, diacylglycerol (DAG). IP3 triggers the release of Ca2+ from intracellular stores in several cell types and has been shown to increase myofilament Ca2+ sensitivity. DAG activates protein kinase C (PKC), an enzyme that catalyzes the phosphorylation of different cellular proteins, including several proteins of the myofibrils. Distinct ionic transporters, like the Na+/H+ antiporter and the Na(+)-independent Cl-/HCO3- exchanger, implicated in the regulation of intracellular pH, and the Na+/Ca2+ exchanger which contribute to the intracellular Ca2+ homeostasis, have been shown to be activated by a PKC-dependent mechanism. Thus, either one of the Ang II-induced second messengers, that is, IP3 and DAG, has the potential to affect myocardial contractility by modifying either intracellular Ca2+, myofilament Ca2+ responsiveness, or both. As described herein, the available data do not allow a definitive single model to explain the mechanism of the Ang II-induced positive inotropic effect. Moreover, it is possible that the final action of Ang II on myocardial inotropism is the end product of a complex interaction of several of the mechanisms triggered by the hormone.
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PMID:Positive inotropic effect of angiotensin II. Increases in intracellular Ca2+ or changes in myofilament Ca2+ responsiveness? 927 76

Intracellular Ca2+ and pH are potent modulators of growth factor-induced mitogenesis and contraction. This study examined platelet-derived growth factor-(PDGF-BB) and insulin-like growth factor (IGF-1)-mediated signal transduction in primary cultured unpassaged vascular smooth muscle cells (VSMC) from mesenteric arteries of Sprague-Dawley rats. Intracellular free Ca2+ concentration ([Ca2+]i) and intracellular pH (pHi) were measured by fluorescence digital imaging using fura-2 AM and 2'7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein, respectively. Characteristics of [Ca2+]i transients were determined by pre-exposing cells to Ca2+-free buffer, and involvement of the Na+/Ca2+ exchanger was assessed by withdrawal of extracellular Na+ and by exposure to dimethylbenzamil (Na+/Ca2+ exchange blocker). To determine whether pHi responses were mediated via the Na+/H+ exchanger, cells were preincubated with 10(-5) mol/L 5-(N-ethyl-N-isopropyl)amiloride (a selective Na+/H+ exchange blocker). The role of protein kinase C (PKC) and tyrosine kinases in growth factor signaling was assessed by pre-exposing cells to calphostin C and chelerythrine chloride (selective PKC inhibitors; 10(-5) mol/L) and tyrphostin A23 (a selective tyrosine kinase inhibitor; 10(-5) mol/L). PDGF-BB and IGF-1 (1 to 10 ng/mL) increased [Ca2+]i and pHi in a dose-dependent manner. At concentrations greater than 1 ng/mL both growth factors induced a biphasic [Ca2+]i response with an initial transient peak followed by a sustained elevation. At 5 ng/mL PDGF-BB and IGF-1 significantly increased [Ca2+]i from 95+/-3 nmol/L to 328+/-28 and 251+/-18 nmol/L, respectively. Ca2+ withdrawal abolished the second phase of [Ca2+]i elevation. Agonist-induced [Ca2+]i responses were similarly altered by Na+ withdrawal, by Na+/ Ca2+ exchange blockade, and by PKC inhibition; latency, the period from stimulus application to the first [Ca2+]i peak, was increased, the initial [Ca2+]i peak was attenuated, and the sustained phase was prolonged. PDGF-BB and IGF-1 (10 ng/mL) significantly increased pHi from 6.89+/-0.04 nmol/L to 7.11+/-0.01 and 7.09+/-0.02 nmol/L, respectively. EIPA and calphostin C completely inhibited agonist-elicited alkalinization. Tyrphostin A-23 abolished second-messenger responses to PDGF-BB and IGF-1, whose receptors have tyrosine kinase activity. In conclusion, PDGF-BB and IGF-1 elicit significant [Ca2+]i and pHi responses in VSMC. The underlying pathways that mediate these responses are partially dependent on Na+/ Ca2+ transporters and the Na+/H+ exchanger, both of which are linked to PKC activation.
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PMID:Growth factors mediate intracellular signaling in vascular smooth muscle cells through protein kinase C-linked pathways. 940 65


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